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SCRS/2016/082 Collect. Vol. Sci. Pap. ICCAT, 73(4): 1547-1560 (2017)
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UPDATED FISHERY STATISTICS FOR BIGEYE, SKIPJACK AND
ALBACORE TUNAS FROM MADEIRA ARCHIPELAGO
Lídia Gouveia1, Antonieta Amorim1, Adriana Alves1, Margarida Hermida2
SUMMARY
Tunas constitute an important seasonal fishery in the region of Madeira. Bigeye and skipjack
are usually the most abundant species in the area, with albacore reaching record landings in
2014. This document updates the tuna statistics of Madeira archipelago between 1999 and
2015, including the total catch by species, the baitboat fleet composition and the catch size
frequencies for the main tuna species (BET, SKJ and ALB). Fishing grounds used in recent
years (2010-2015) are also presented.
RÉSUMÉ
La pêche thonière est une pêcherie saisonnière importante dans la région de Madère. Le thon
obèse et le listao sont généralement les espèces les plus abondantes dans la région, et les
débarquements de germon ont atteint un niveau jamais observé auparavant en 2014. Le présent
document fournit une actualisation des statistiques thonières de l’archipel de Madère entre
1999 et 2015, y compris la capture totale par espèce, la composition de la flottille de canneurs
et les fréquences de taille au moment de la capture des principales espèces de thonidés (BET,
SKJ et ALB). Les zones de pêche fréquentées ces dernières années (2010-2015) sont également
présentées.
RESUMEN
Los túnidos constituyen una importante pesquería estacional en la región de Madeira. El
patudo y rabil suelen ser la especie más abundante en la zona, y el atún blanco alcanzó un
récord de desembarques en 2014. En este documento se proporciona una actualización de las
estadísticas de túnidos del archipiélago de Madeira entre 1999 y 2015, incluida la captura total
por especies, la composición de la flota de cebo vivo y las frecuencias de tallas de la captura
para las principales especies de túnidos (BET, SKJ y ALB). También se presentan los caladeros
utilizados en años recientes (2010-2015).
KEYWORDS
Fishery statistics, Size frequency,
Fishing grounds, Madeira, Bigeye tuna, Skipjack, Albacore
1 Direção de Serviços de Investigação, Direção Regional das Pescas, Estrada da Pontinha, 9004-562 Funchal, Madeira, Portugal.
[email protected] 2 CIIMAR – Madeira, Interdisciplinary Center of Marine and Environmental Research of Madeira, Edifício Madeira Tecnopolo, Caminho da
Penteada, 9020-105 Funchal.
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1. Introduction
Tunas are an important seasonal fisheries resource in Madeira, often comprising around half of total landings in
recent years (2010-2015). The value of sales at auction reached about 43.4% of total trade in the same period.
The most abundant species are usually bigeye tuna (Thunnus obesus) and skipjack (Katsuwonus pelamis)
(Gouveia et al., 2001). Albacore (Thunnus alalunga) is also fished in variable amounts, while other species such
as bluefin (Thunnus thynnus) and yellowfin (Thunnus albacares) are poorly represented in the region. The main
fishing method used in the region is the pole and line, with live bait (Gouveia et al., 2001). In recent years, after
detection of the school, the fishing boats are then used as fish aggregating devices (locally called “mancha”).
Catches of the different tuna species are dependent on their seasonal abundance in this region. Tunas are highly
migratory pelagic fishes, whose seasonal geographic distribution may be conditioned by both environmental and
biological variables (Gouveia et al, 2001). For example, sea surface temperature and currents, as well as climate
patterns such as the North Atlantic Oscillation, may be partly responsible for the variability in tuna abundance
(Amorim et al., unpublished results; Gouveia and Mejuto 2003). Prey abundance and the location of ocean
fronts, which are used by tunas as foraging grounds, can also condition the distribution of these pelagic predators
(Schick and Lutcavage 2009; Woodson and Litvin 2015).
In this study, we present updated statistics on tuna catches in Madeira archipelago for the three main tuna
species, with particular emphasis on the unusually high landings of albacore in 2014.
2. Data
The fisheries data used in this analysis come from the activity of the bait boat fleet operating around the
archipelago fishing grounds, comprising tuna vessels registered in Azores and Madeira islands. Data on tuna
landings were collected in the main fishing ports for the period between 1999 and 2015. The catch data of the
three most representative species in the fishery - bigeye tuna (BET), skipjack (SKJ) and albacore (ALB) - were
considered in these analyses.
Size composition of fish is based on statistical sampling program of specimens landed daily in the main fishing
ports of the island (2010-2015). In this period a total of 23.581 bigeye tuna individuals, 12.753 skipjack and
6.506 albacore were sampled.
Information on the tuna fleet composition (GT and number of vessels) was extracted from the national fleet
register database for 2010-2015 period.
The spacial locations of the tuna fishing grounds were considered globally for the years 2010-2015, obtained
from the fishing logbooks and processed using QGIS 2.2 software.
Environmental data (sea surface temperatures) were extracted from the meteorological records of Observatório
Meteorológico do Funchal, for the period 1960 to 2015.
3. Results
Landings of the main tuna species in Madeira exhibit fluctuations, but have remained relatively stable overall
(around an average of 2,400 t), showing a slight increasing tendency since 1999 (Table 1, Figure 1). Albacore
landings are the most variable, with peak landings of 2,263 t in 2014. The previous highest landing of this
species was obtained in 2002, with 1,479 t.
The regional tuna fishing fleet composition, classified by gross tonnage, is presented in Table 2. In recent years,
tuna fishing in the region has concentrated in the areas around Madeira and Porto Santo islands. In addition,
important fleet displacements of the Madeiran and Azorean fleets are observed each year between the two
Portuguese archipelagos (Figure 2). The relative weight of each fleet in the landings of the main tuna species in
Madeira fishing ports is presented in Figure 3, where dominance in the amount of catches made by the Azorean
fleet can be observed, reflecting its higher capacity.
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The three main tuna species present a marked seasonal pattern in the region (Figure 4). For the period under
analysis, bigeye was mainly caught in the spring months, whereas skipjack usually presented a peak in late
summer and autumn. Despite high inter-annual variability, albacore landings followed the same seasonal pattern
as bigeye in the last two years, with unusually high landings observed in June 2014 (1,303 ton) and in May 2015
(523 ton).
Length composition of the three main tuna species was estimated for the total landings for the years 2010-2015
(Tables 3a, 3b, 3c). The annual size distribution of Bigeye tuna varies considerably between years, probably due
to the availability and abundance of the species to the annual catch and success of the fishery, as was verified in
previous studies (Gouveia et al, 2001). However, this species shows a more restricted range of lengths in 2012,
but otherwise no particular trend is observed in the length composition in the considered period (Figure 5a).
Skipjack length composition seems to have a normal distribution, with no major differences between years,
ranging between 40 and 65 cm FL (Figure 5b). For albacore, the length composition seems to have converged
on a more normal distribution since 2013, varying between 70 and 90 cm FL; this may reflect the higher
landings observed in this period (Figure 5c).
Environmental data presented in form of annual average of sea surface temperature anomalies (SSTa) was based
on the period January 1960 – December 2015, from daily temperature registers of sea surface temperature
(Figure 6). Despite the observed variability, there is a clear warming trend since 1995. In recent years, a positive
SST anomaly of +0.9ºC was observed in 2012.
4. Conclusions
In recent years, tuna catches in Madeira archipelago have remained relatively stable. However, in 2014,
exceptionally high landings of albacore were registered. A thorough analysis of environmental variables is under
way, but a preliminary observation suggests that 2014 was unremarkable in terms of environmental conditions
such as SST, SSH, ocean currents and chlorophyll a. As such, no clear explanation for the peak in albacore
landings is immediately apparent, but it is possible that a combination of ecological and biological factors may
be responsible. Both local environmental features and large-scale climate patterns such as the North Atlantic
Oscillation (Báez et al. 2011) may affect albacore abundance and age-class strength, which is reflected in
regional landings.
The warming trend observed in sea surface temperature anomalies is consistent with previous results (Gouveia et
al. 2001) and is likely to reflect global climate changes, which may also influence tuna distribution and
migratory patterns (Arrizabalaga et al. 2015), as well as availability to different fishing methods.
References
Arrizabalaga, H., Dufour, F., Kell, L., Merino, G., Ibaibarriaga, L., Chust, G., Irigoien, X., Santiago, J., Murua,
H., Fraile, I., Chifflet, M., Goikoetxea, N., Sagarminaga, Y., Aumont, O., Bopp, L., Herrera, M., Fromentin,
J. M., and Bonhomeau, S. (2015). Global habitat preferences of commercially valuable tuna. Deep-Sea
Research II 113, 102–112.
Báez, J. C., Ortiz De Urbina, J. M., Real, R., and Macías, D. (2011). Cumulative effect of the North Atlantic
Oscillation on age class abundance of albacore (Thunnus alalunga). Journal of Applied Ichthyology, 27(6),
1356-1359.
Gouveia, L., Alves A., and Amorim, A. (2001). Tuna fishery statistics of Madeira, 1960-1999. Col. Vol. Sci.
Pap. ICCAT, 52(5), 1913-1926.
Gouveia, L., and Mejuto, J. (2003). Seasonality and interannual variability in catches of skipjack tuna
(Katsuwonus pelamis) and bigeye tuna (Thunnus obesus) in the area around the archipelago of Madeira.
Collect. Vol. Sci. Pap. ICCAT, 55(5), 1853-1867.
Schick, R. S., and Lutcavage, M. E. (2009). Inclusion of prey data improves prediction of bluefin tuna (Thunnus
thynnus) distribution. Fisheries Oceanography, 18(1), 77-81.
Woodson, C. B., and Litvin, S. Y. (2015). Ocean fronts drive marine fishery production and biogeochemical
cycling. Proceedings of the National Academy of Sciences, 112(6), 1710-1715.
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Table 1. Landings of the main tuna species in Madeira, in tones, for period 1999-2015.
YEAR BET SKJ ALB OTH TOTAL
1999 1107 345 78 44 1575
2000 384 262 14 32 692
2001 276 495 765 38 1574
2002 759 556 1479 25 2819
2003 883 587 333 17 1820
2004 1227 1595 104 23 2949
2005 977 1094 63 31 2164
2006 2082 1713 3 24 3822
2007 2321 504 25 16 2866
2008 1400 912 111 9 2431
2009 2405 104 9 7 2525
2010 1118 686 40 16 1860
2011 1020 299 13 36 1369
2012 1576 1537 21 22 3157
2013 1241 210 151 10 1612
2014 1667 962 2264 12 4905
2015 1773 117 864 7 2761
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Table 2. Fishing tuna fleet composition by gross tonnage, 2010-2015.
Madeiran Fleet Azorean Fleet
Year GT Nr. Boats Landings (t) Nr. Boats Landings (t)
2010 <50 68 303
1 22
[50-150] 5 89
10 876
>150 3 462
3 93
2011 <50 62 410
1 22
[50-150] 5 241
9 343
>150 3 336
1 16
2012 <50 49 1043
2 59
[50-150] 4 588
10 776
>150 3 637
2 53
2013 <50 53 538
1 33
[50-150] 4 205
13 514
>150 3 278
3 43
2014 <50 46 630
4 149
[50-150] 4 512
17 2628
>150 3 652
3 333
2015 <50 60 364
3 67
[50-150] 5 348
16 1490
>150 3 246 3 225
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Table 3a. Size composition of bigeye tuna landed in Madeira, 2010-2015.
FL(5-5cm) 2010 2011 2012 2013 2014 2015
40 225 0 0 0 0 703
45 1985 26 43 24 0 634
50 3387 291 808 361 1026 2364
55 4900 1133 1822 758 2339 8089
60 5923 1920 3128 422 2524 11577
65 4180 1930 3091 443 1675 6167
70 8124 1931 6164 3313 2831 6156
75 8346 2124 12634 4264 4217 7085
80 3931 1561 22252 3764 4509 7531
85 1404 1591 13578 1467 2731 4748
90 2567 2003 11235 914 3543 4154
95 2337 2328 7352 1410 5456 5221
100 2125 2404 5648 2302 7855 6283
105 2388 2875 2531 2118 6181 3945
110 3133 3813 2334 2912 6319 4855
115 2429 2784 1227 2513 2878 3485
120 2086 2214 1211 1559 2921 3667
125 1495 1277 1017 840 2888 3188
130 1195 974 1654 833 2880 2691
135 503 674 625 619 1978 1344
140 519 564 346 891 1043 948
145 260 433 165 1131 506 387
150 214 555 77 1954 462 203
155 369 442 51 609 112 60
160 188 422 1 1037 71 79
165 314 325 1 605 100 156
170 282 370 7 606 43 160
175 47 68 5 302 41 2
180 49 26 38 94 13 56
185 1 0 36 63 0 26
190 1 10 0 0 52 0
195 0 0 0 0 56 0
200 0 0 0 0 0 0
205 0 0 0 0 0 0
210 0 0 0 0 0 0
215 0 0 0 0 0 0
220 0 0 0 0 0 0
Total Nr. 64.909 37.066 99.081 38.131 67.251 95.963
Total Landing (t) 1.105 1.019 1.576 1.241 1.667 1.752
Average weight (Kg) 17 28 16 33 25 18
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Table 3b. Size composition of skipjack landed in Madeira, 2010-2015.
FL(2-2cm) 2010 2011 2012 2013 2014 2015
30 0 0 0 0 0 0
32 27 5 61 0 78 0
34 27 5 95 1 151 164
36 106 20 570 3 788 189
38 1451 39 1159 7 1702 728
40 9922 575 4581 28 5848 1815
42 18058 5369 14059 85 11692 8050
44 25441 11399 26832 302 14840 11525
46 39772 10215 49285 1980 33067 10659
48 38138 22189 84008 4235 48989 7235
50 27596 14294 80567 7148 47329 6519
52 24471 15253 75455 8814 39646 3257
54 18853 8877 75010 11176 33791 2096
56 13911 6030 54106 8798 27044 1385
58 8470 2917 32122 5181 19045 509
60 8321 1893 18060 3722 13825 160
62 4760 1995 7707 2263 10323 264
64 5299 1495 4151 1721 5666 32
66 2415 623 564 701 5173 85
68 2823 1308 551 814 1032 16
70 1146 1186 167 350 745 16
72 369 381 217 463 73 0
74 0 61 0 350 187 16
76 0 0 0 0 156 0
78 0 0 0 88 0 0
80 0 0 0 0 0 0
82 0 0 0 0 0 0
84 0 0 0 0 0 0
86 0 61 0 0 0 0
Total Nr. 251.376 106.187 529.324 58.231 321.190 54.720
Total Landings (t) 685 299 1537 209 962 117
Average Weight (Kg) 3 3 3 4 3 2
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Table 3c. Size composition of albacore tuna landed in Madeira, 2010-2015.
FL(5-5cm) 2010 2011 2012 2013 2014 2015
40 0 0 0 0 0 0
45 0 0 0 0 0 0
50 0 0 41 6 426 45
55 10 5 62 97 778 409
60 132 79 103 15 2206 772
65 42 16 21 3 2407 2150
70 90 10 23 307 16585 14435
75 347 5 235 2042 60970 27752
80 682 101 403 5087 86509 21673
85 541 108 168 2370 26515 6985
90 135 59 47 532 4165 2096
95 109 50 49 350 890 702
100 157 78 84 451 303 735
105 138 67 70 156 741 666
110 192 95 136 137 68 171
115 37 22 24 17 2 217
120 6 7 0 0 1 183
125 6 0 0 0 0 92
130 0 0 0 0 0 0
135 0 0 0 0 0 0
140 0 0 0 0 0 1
145 0 0 0 0 0 0
Total Nr. 2.622 703 1.467 11.572 202.566 79.083
Total Landings (t) 40 13 21 151 2.264 864
Average Weight (Kg) 15 18 14 13 11 11
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Figure 1. Landings of bigeye, skipjack, albacore, and the three tuna species in the Madeira EEZ, 1999-2015.
Figure 2. Tuna fishing grounds around Madeira and Azores islands used by the local fleet in the period 2010-
2015. Data source: Fishing logbooks.
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Figure 3. Landings of the major tuna species in Madeira, by fleet, 2010-2015.
Figure 4. Landings seasonality for the main tuna species (BET, SKJ, ALB) in Madeira, 2010-2015.
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Figure 5a. Estimated length composition of bigeye tuna landed in Madeira, 2010-2015.
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Figure 5c. Estimated length composition of albacore landed in Madeira, 2010-2015.
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Figure 6. Annual average Sea Surface Temperature anomalies (degrees Celsius), Madeira, 1960-2015. Data source: Meteorological records of Observatório Meteorológico do Funchal. https://drive.google.com/drive/folders/0B5WhtYesks4kVHE1Q1lzNUdEY28